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SPECIFICATIONS
Frequency response, 1 meter on-axis,
swept-sine in anechoic environment:
90 Hz to 20 kHz (±3 dB, with
processing)
Usable low frequency limit
(-10 dB point):
85 Hz (with processing)
Power handling:
Low frequency section:
1,000 watts continuous
2,000 watts program
4,000 watts peak
Mid frequency section:
200 watts continuous
400 watts program
800 watts peak
High frequency section:
200 watts continuous
400 watts program
800 watts peak
Sound pressure level, 1 watt,
1 meter in anechoic environment:
Low frequency section (Both 12"
woofers in parallel):
99 dB SPL (2.00 V input)
Mid frequency section:
101 dB SPL (2.83 V input)
High frequency section:
102 dB SPL (2.83 V input)
Maximum sound pressure level
(1 meter)
:
*
Low frequency section:
129 dB SPL continuous
135 dB SPL peak
Mid frequency section:
124 dB SPL continuous
130 dB SPL peak
Versarray
212
™
High frequency section:
125 dB SPL continuous
131 dB SPL peak
*Note: This spec is for one module at 1
meter, a line array of 8 units has much
higher output at distance due to line source
effect where SPL falls of at 3 dB per distance
doubling rather than 6 dB. All peak levels
confirmed by measurement.
Normal radiation angle measured at
-6 dB point of polar response:
70° horizontal by 15° vertical
(One module only; straight line array
of more than 1 module narrows
vertical dispersion accordingly)
Radiation angle measured at
-6 dB point of polar response:
500 Hz to 1.6 kHz:
Horizontal 158° +/- 55°
Vertical 90° +/- 45°
1.6kHz to 5 kHz:
Horizontal 84° +/- 15°
Vertical 30° +/- 10°
5 kHz to 16 kHz:
Horizontal 55° +/- 20°
Vertical 10° +/- 4°
Directivity Factor, Q (Mean, 1.6 kHz
to 12.5 kHz):
47.6, +92/-36
Directivity Factor, Di (Mean, 1.6 kHz
to 12.5 kHz):
16.8 dB, +4.6 dB/-6.3 dB
Transducer complement:
Low frequency section:
2 x 12" woofer, 1212-4 Neo Black
Widow
4" Dual VC Woofer in a
®
sealed box
Mid frequency section:
10 x 2.5" in Neo Midranges,
arranged in two banks of 5 each
1
High frequency section:
4 x 4.75" in Planar Dynamic
Ribbon Tweeter line sources on a
manifold-loaded waveguide
Box tuning frequency (Sealed):
Low frequency section: 94 Hz
Midrange section: 220 Hz
Harmonic Distortion
:
*
1 watt power
2nd Harmonic:
200 Hz
0.32%
1 kHz
0.47%
4 kHz
048%
3rd Harmonic:
200 Hz < 0.10%
1 kHz
0.19%
4 kHz
0.18%
10 watt power
2nd Harmonic:
200 Hz
1.38%
1 kHz
1.52%
4 kHz
0.72%
3rd Harmonic:
200 Hz
< 0.10%
1 kHz
0.32%
4 kHz
0.16%
*Note: Distortion levels may be measurement
setup limited in some instances
Electroacoustic crossover point,
Peavey active digital crossover:
(Applies to VSX and Digitool settings provided by
Peavey)
Sub - Low frequency:
120 Hz at 24 dB/octave
Low frequency - Mid frequency:
440 Hz at 24 dB/octave
Mid frequency - High frequency:
2.51 kHz at 24 dB/octave
Recommended active crossover
frequency region and slope:
Sub - Low frequency:
125 Hz at 24 dB/octave LR
Low frequency - Mid frequency:
440 Hz at 24 dB/octave LR
Mid frequency - High frequency:
2.6 kHz at 24 dB/octave
Time Offset:
Low frequency: -0.33 milliseconds
Mid frequency: -0.25 milliseconds
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Related Manuals for Peavey Versarray 212
Summary of Contents for Peavey Versarray 212
-
Page 1: Specifications
Mid frequency section: Electroacoustic crossover point, 200 watts continuous Radiation angle measured at Peavey active digital crossover: 400 watts program -6 dB point of polar response: (Applies to VSX and Digitool settings provided by 800 watts peak Peavey) 500 Hz to 1.6 kHz:... - Page 2 Nominal: Optional accessories: array and planar ribbon tweeter line 6.5 Ω Minimum: Peavey Versarray 212 Array fly bar source in a cabinet with a highly (Peavey part number 00586480, flexible rigging system. Designed to Mid frequency (each): weight 85 lbs.) provide modular coverage of medium 6.0 Ω...
- Page 3 97 pounds, which includes the weight of two coupling brackets and all the associated Quick Release Positive Lock anywhere from 4 to 8 or more Versarray 212 modules in conjunction with anything from one Versarray 118 Sub to as Pins.
- Page 4 The Versarray 212 line array loudspeaker system modules are and/or thermal limits by overloading the unit suddenly with to be suspended below or stacked on top of the Versarray 212 excess power, even though there are no obvious sounds of Fly-Bar in accordance with the Versarray 212 Fly-Bar Owner’s...
- Page 5 SPECIFICATIONS Versarray ™ Amplitude Response (1m Equivalent On-Axis) Impedance One VR212 Only Woofers Midranges With Crossover Tweeters No LF Crossover Frequency (Hz) Frequency (Hz) Figure 1 Figure 2 Beamwidth Q & Directivity Index Horizontal Vertical Frequency (Hz) Frequency (Hz) Figure 3 Figure 4 Harmonic Distortion : 1 Watt Harmonic Distortion : 10 Watts...
- Page 6 SPECIFICATIONS Versarray ™ Horizontal Polars H200 H250 H315 H400 H630 H800 H1600 H1000 H1250 H2000 H2500 H3150...
- Page 7 SPECIFICATIONS Versarray ™ Horizontal Polars, Continued H6300 H4000 H5000 H8300 H10000 H12500 H16000...
- Page 8 SPECIFICATIONS Versarray ™ Vertical Polars V200 V250 V315 V400 V500 V630 V1250 V850 V1000 V2500 V1600 V2000...
- Page 9 SPECIFICATIONS Versarray ™ Vertical Polars, Continued V3150 V4000 V5000 V6300 V8000 V10000 V12500 V16000...
- Page 10 SPECIFICATIONS Versarray ™ Versarray 212 Input Plate...
- Page 11 (For reference purposes only, you should use more than Linkwitz-Riley or Butterworth filters, and may give the impression one Versarray 212 cabinet so as to create a line array. We that there is a severe under-lap at the crossover frequency. This recommend a minimum of four Versarray 212 cabinets.)
- Page 12 ™ Digitool MX or VSX ® ™ Four Versarray 212 cabinets @ 2 degrees angle between them For a more gradual soft limiting on the front end: PEQ Freq = 325 Hz BW = 0.71 Level = - 2.5 dB Input limiter: PEQ Freq = 2.5 kHz BW = 1.0...
- Page 13 Versarray 218 compared to the level for the 12” woofers that an accident or mistake will damage the speaker system. in the Versarray 212 system. Thus, we need to set the gain at the processor for the sub channel to +1.5 dB relative to the –...
- Page 14 Usage Notes two each angled the maximum amount of 10 degrees total. Note that the Versarray 212 is intended to be used with Up till now, we have been talking about a relatively smooth a subwoofer, an electronic crossover and four channels vertical coverage, with no gaps or suck-outs in the vertical of amplification to provide full-range performance.
- Page 15 Always use three pins per side per cabinet The processor settings that are current as of the publication of coupling to fly the Versarray 212 cabinets! That would be a total this spec sheet are included herein.
- Page 16 NOTICE: The Quick Release Positive Lock Pins from the cabinets is always set first and maxed out before starting to Versarray 112 WILL NOT lock in place on the Versarray 212, and use the angling of the bottom set of pins. This would mean that should not be used or attempted to be used with the Versarray 212.
- Page 17 SPECIFICATIONS Versarray ™ Versarray 212 Hang Angles Angle Between Cabinets...
- Page 18 SPECIFICATIONS Versarray ™ Cabinet Fly Bar Diagram Cabinet Pull Back Bar Diagram...
- Page 19 SPECIFICATIONS Versarray ™ Versarray 212 Cabinet Dimensions ™ ...
- Page 20 13 August 2005 80305511 Features and specifications are subject to change without notice. Peavey Electronics Corporation • 5022 Hartley Peavey Drive • Meridian, MS 39305 • (601) 483-5365 • www.peavey.com ©2009 Printed in the U.S.A. 03/09...
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